1.The pattern of XRD illustrated that the pure perovskite phase (tetragonal) had been obtained for all samples.
XRD分析结果表明所制备的样品都生成了纯的钙钛矿结构,并且都为四方相。
2.In the case of CO2 hydrogenation, methane was formed on monoclinic zirconia while formate species was observed on tetragonal zirconia.
在氢气存在的条件下,单斜氧化锆上生成甲烷而在四方氧化锆上则生成甲酸盐。
3.The experimental arrangement and the data-analysis procedure are demonstrated through an experimental example on tetragonal lysozyme.
实验安排和数据分析程序,通过实验证明例如四方溶菌酶。
4.Transformation behavior and flexural strength of tetragonal zirconia (TZ3Y) are affected significantly by surface modification.
正方相氧化锆(TZ3Y)的相变行为和挠曲强度深受表面处理影响。
5.With the increasing of doping amounts, phases shift from tetragonal phase to rhombohedral phase.
随着掺杂量的增加,物相组成由四方相向三方相转变;
6.The sets of special points for the deformed body centered tetragonal lattice are presented.
给出了变形的体心四方点阵的若干组特殊点,描述了推导这些特殊点的方法。
7.For all 382 types of homogeneous sphere packings with tetragonal symmetry, the minimal sphere-packing densities have been calculated.
对于所有类型的同质382领域填料与四角对称,最小领域包装密度计算了。
8.The output of each four-like many forest has a Tetragonal Haig.
输出的四弛胶卷各自有一个四方暗格。
9.Seeds 2--4 per valve, uniseriate, brown-gray, tetragonal, 3 sides flat, 1 slightly convex and verrucose.
每裂片种子2-4,单列,棕色灰色,四边形,平的3边,1稍凸和瘤状的。
10.Influence of Dispersant Contents on Rheological Behavior of Nano-sized Tetragonal Polycrystals Zirconia's Suspensions
分散剂用量对纳米四方多晶氧化锆悬浮体流变性能的影响